/* * Horizontal/vertical but can also be angled line * * Authors: * Lauris Kaplinski * Johan Engelen * Maximilian Albert * * Copyright (C) 2000-2002 Lauris Kaplinski * Copyright (C) 2007 Johan Engelen * Copyright (C) 2009 Maximilian Albert * * Released under GNU GPL, read the file 'COPYING' for more information */ #include <2geom/coord.h> #include <2geom/transforms.h> #include "sp-canvas-util.h" #include "sp-ctrlpoint.h" #include "guideline.h" #include "display/cairo-utils.h" #include "inkscape.h" // for inkscape_active_desktop() #include "desktop.h" #include "sp-namedview.h" static void sp_guideline_class_init(SPGuideLineClass *c); static void sp_guideline_init(SPGuideLine *guideline); static void sp_guideline_destroy(GtkObject *object); static void sp_guideline_update(SPCanvasItem *item, Geom::Affine const &affine, unsigned int flags); static void sp_guideline_render(SPCanvasItem *item, SPCanvasBuf *buf); static double sp_guideline_point(SPCanvasItem *item, Geom::Point p, SPCanvasItem **actual_item); static void sp_guideline_drawline (SPCanvasBuf *buf, gint x0, gint y0, gint x1, gint y1, guint32 rgba); static SPCanvasItemClass *parent_class; GType sp_guideline_get_type() { static GType guideline_type = 0; if (!guideline_type) { static GTypeInfo const guideline_info = { sizeof (SPGuideLineClass), NULL, NULL, (GClassInitFunc) sp_guideline_class_init, NULL, NULL, sizeof (SPGuideLine), 16, (GInstanceInitFunc) sp_guideline_init, NULL, }; guideline_type = g_type_register_static(SP_TYPE_CANVAS_ITEM, "SPGuideLine", &guideline_info, (GTypeFlags) 0); } return guideline_type; } static void sp_guideline_class_init(SPGuideLineClass *c) { parent_class = (SPCanvasItemClass*) g_type_class_peek_parent(c); GtkObjectClass *object_class = (GtkObjectClass *) c; object_class->destroy = sp_guideline_destroy; SPCanvasItemClass *item_class = (SPCanvasItemClass *) c; item_class->update = sp_guideline_update; item_class->render = sp_guideline_render; item_class->point = sp_guideline_point; } static void sp_guideline_init(SPGuideLine *gl) { gl->rgba = 0x0000ff7f; gl->normal_to_line = Geom::Point(0,1); gl->angle = 3.14159265358979323846/2; gl->point_on_line = Geom::Point(0,0); gl->sensitive = 0; gl->origin = NULL; gl->label = NULL; } static void sp_guideline_destroy(GtkObject *object) { g_return_if_fail (object != NULL); g_return_if_fail (SP_IS_GUIDELINE (object)); //g_return_if_fail (SP_GUIDELINE(object)->origin != NULL); //g_return_if_fail (SP_IS_CTRLPOINT(SP_GUIDELINE(object)->origin)); if (SP_GUIDELINE(object)->origin != NULL && SP_IS_CTRLPOINT(SP_GUIDELINE(object)->origin)) { gtk_object_destroy(GTK_OBJECT(SP_GUIDELINE(object)->origin)); } else { // FIXME: This branch shouldn't be reached (although it seems to be harmless). //g_error("Why can it be that gl->origin is not a valid SPCtrlPoint?\n"); } GTK_OBJECT_CLASS(parent_class)->destroy(object); } static void sp_guideline_render(SPCanvasItem *item, SPCanvasBuf *buf) { //TODO: the routine that renders the label of a specific guideline sometimes // ends up erasing the labels of the other guidelines. // Maybe we should render all labels everytime. SPGuideLine const *gl = SP_GUIDELINE (item); cairo_save(buf->ct); cairo_translate(buf->ct, -buf->rect.left(), -buf->rect.top()); ink_cairo_set_source_rgba32(buf->ct, gl->rgba); cairo_set_line_width(buf->ct, 1); cairo_set_line_cap(buf->ct, CAIRO_LINE_CAP_SQUARE); cairo_set_font_size(buf->ct, 10); Geom::Point normal_dt = /*unit_vector*/(gl->normal_to_line * gl->affine.withoutTranslation()); // note that normal_dt does not have unit length Geom::Point point_on_line_dt = gl->point_on_line * gl->affine; if (gl->label) { int px = round(point_on_line_dt[Geom::X]); int py = round(point_on_line_dt[Geom::Y]); cairo_save(buf->ct); cairo_translate(buf->ct, px, py); cairo_rotate(buf->ct, atan2(normal_dt.cw())); cairo_translate(buf->ct, 0, -5); cairo_move_to(buf->ct, 0, 0); cairo_show_text(buf->ct, gl->label); cairo_restore(buf->ct); } if ( Geom::are_near(normal_dt[Geom::Y], 0.) ) { // is vertical? int position = round(point_on_line_dt[Geom::X]); cairo_move_to(buf->ct, position + 0.5, buf->rect.top() + 0.5); cairo_line_to(buf->ct, position + 0.5, buf->rect.bottom() - 0.5); cairo_stroke(buf->ct); } else if ( Geom::are_near(normal_dt[Geom::X], 0.) ) { // is horizontal? int position = round(point_on_line_dt[Geom::Y]); cairo_move_to(buf->ct, buf->rect.left() + 0.5, position + 0.5); cairo_line_to(buf->ct, buf->rect.right() - 0.5, position + 0.5); cairo_stroke(buf->ct); } else { // render angled line. Once intersection has been detected, draw from there. Geom::Point parallel_to_line( normal_dt.ccw() ); //try to intersect with left vertical of rect double y_intersect_left = (buf->rect.left() - point_on_line_dt[Geom::X]) * parallel_to_line[Geom::Y] / parallel_to_line[Geom::X] + point_on_line_dt[Geom::Y]; if ( (y_intersect_left >= buf->rect.top()) && (y_intersect_left <= buf->rect.bottom()) ) { // intersects with left vertical! double y_intersect_right = (buf->rect.right() - point_on_line_dt[Geom::X]) * parallel_to_line[Geom::Y] / parallel_to_line[Geom::X] + point_on_line_dt[Geom::Y]; sp_guideline_drawline (buf, buf->rect.left(), static_cast(round(y_intersect_left)), buf->rect.right(), static_cast(round(y_intersect_right)), gl->rgba); goto end; } //try to intersect with right vertical of rect double y_intersect_right = (buf->rect.right() - point_on_line_dt[Geom::X]) * parallel_to_line[Geom::Y] / parallel_to_line[Geom::X] + point_on_line_dt[Geom::Y]; if ( (y_intersect_right >= buf->rect.top()) && (y_intersect_right <= buf->rect.bottom()) ) { // intersects with right vertical! sp_guideline_drawline (buf, buf->rect.right(), static_cast(round(y_intersect_right)), buf->rect.left(), static_cast(round(y_intersect_left)), gl->rgba); goto end; } //try to intersect with top horizontal of rect double x_intersect_top = (buf->rect.top() - point_on_line_dt[Geom::Y]) * parallel_to_line[Geom::X] / parallel_to_line[Geom::Y] + point_on_line_dt[Geom::X]; if ( (x_intersect_top >= buf->rect.left()) && (x_intersect_top <= buf->rect.right()) ) { // intersects with top horizontal! double x_intersect_bottom = (buf->rect.bottom() - point_on_line_dt[Geom::Y]) * parallel_to_line[Geom::X] / parallel_to_line[Geom::Y] + point_on_line_dt[Geom::X]; sp_guideline_drawline (buf, static_cast(round(x_intersect_top)), buf->rect.top(), static_cast(round(x_intersect_bottom)), buf->rect.bottom(), gl->rgba); goto end; } //try to intersect with bottom horizontal of rect double x_intersect_bottom = (buf->rect.bottom() - point_on_line_dt[Geom::Y]) * parallel_to_line[Geom::X] / parallel_to_line[Geom::Y] + point_on_line_dt[Geom::X]; if ( (x_intersect_top >= buf->rect.left()) && (x_intersect_top <= buf->rect.right()) ) { // intersects with bottom horizontal! sp_guideline_drawline (buf, static_cast(round(x_intersect_bottom)), buf->rect.bottom(), static_cast(round(x_intersect_top)), buf->rect.top(), gl->rgba); goto end; } } end: cairo_restore(buf->ct); } static void sp_guideline_update(SPCanvasItem *item, Geom::Affine const &affine, unsigned int flags) { SPGuideLine *gl = SP_GUIDELINE(item); if (((SPCanvasItemClass *) parent_class)->update) { ((SPCanvasItemClass *) parent_class)->update(item, affine, flags); } gl->affine = affine; sp_ctrlpoint_set_coords(gl->origin, gl->point_on_line); sp_canvas_item_request_update(SP_CANVAS_ITEM (gl->origin)); Geom::Point pol_transformed = gl->point_on_line*affine; if (gl->is_horizontal()) { sp_canvas_update_bbox (item, -1000000, round(pol_transformed[Geom::Y] - 16), 1000000, round(pol_transformed[Geom::Y] + 1)); } else if (gl->is_vertical()) { sp_canvas_update_bbox (item, round(pol_transformed[Geom::X]), -1000000, round(pol_transformed[Geom::X] + 16), 1000000); } else { //TODO: labels in angled guidelines are not showing up for some reason. sp_canvas_update_bbox (item, -1000000, -1000000, 1000000, 1000000); } } // Returns 0.0 if point is on the guideline static double sp_guideline_point(SPCanvasItem *item, Geom::Point p, SPCanvasItem **actual_item) { SPGuideLine *gl = SP_GUIDELINE (item); if (!gl->sensitive) { return Geom::infinity(); } *actual_item = item; Geom::Point vec = gl->normal_to_line * gl->affine.withoutTranslation(); double distance = Geom::dot((p - gl->point_on_line * gl->affine), unit_vector(vec)); return MAX(fabs(distance)-1, 0); } SPCanvasItem *sp_guideline_new(SPCanvasGroup *parent, char* label, Geom::Point point_on_line, Geom::Point normal) { SPCanvasItem *item = sp_canvas_item_new(parent, SP_TYPE_GUIDELINE, NULL); SPCanvasItem *origin = sp_canvas_item_new(parent, SP_TYPE_CTRLPOINT, NULL); SPGuideLine *gl = SP_GUIDELINE(item); SPCtrlPoint *cp = SP_CTRLPOINT(origin); gl->origin = cp; normal.normalize(); gl->label = label; gl->normal_to_line = normal; gl->angle = tan( -gl->normal_to_line[Geom::X] / gl->normal_to_line[Geom::Y]); sp_guideline_set_position(gl, point_on_line); sp_ctrlpoint_set_coords(cp, point_on_line); return item; } void sp_guideline_set_label(SPGuideLine *gl, const char* label) { if (gl->label) { g_free(gl->label); } gl->label = g_strdup(label); sp_canvas_item_request_update(SP_CANVAS_ITEM (gl)); } void sp_guideline_set_position(SPGuideLine *gl, Geom::Point point_on_line) { gl->point_on_line = point_on_line; sp_canvas_item_request_update(SP_CANVAS_ITEM (gl)); } void sp_guideline_set_normal(SPGuideLine *gl, Geom::Point normal_to_line) { gl->normal_to_line = normal_to_line; gl->angle = tan( -normal_to_line[Geom::X] / normal_to_line[Geom::Y]); sp_canvas_item_request_update(SP_CANVAS_ITEM (gl)); } void sp_guideline_set_color(SPGuideLine *gl, unsigned int rgba) { gl->rgba = rgba; sp_ctrlpoint_set_color(gl->origin, rgba); sp_canvas_item_request_update(SP_CANVAS_ITEM(gl)); } void sp_guideline_set_sensitive(SPGuideLine *gl, int sensitive) { gl->sensitive = sensitive; } void sp_guideline_delete(SPGuideLine *gl) { //gtk_object_destroy(GTK_OBJECT(gl->origin)); gtk_object_destroy(GTK_OBJECT(gl)); } static void sp_guideline_drawline (SPCanvasBuf *buf, gint x0, gint y0, gint x1, gint y1, guint32 /*rgba*/) { cairo_move_to(buf->ct, x0 + 0.5, y0 + 0.5); cairo_line_to(buf->ct, x1 + 0.5, y1 + 0.5); cairo_stroke(buf->ct); } /* Local Variables: mode:c++ c-file-style:"stroustrup" c-file-offsets:((innamespace . 0)(inline-open . 0)(case-label . +)) indent-tabs-mode:nil fill-column:99 End: */ // vim: filetype=cpp:expandtab:shiftwidth=4:tabstop=8:softtabstop=4:fileencoding=utf-8:textwidth=99 :